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Article Dans Une Revue Energy Conversion and Management Année : 2014

Experimental and theoretical investigations on condensation heat transfer at very low pressure to improve power plant efficiency

Résumé

This paper presents experimental investigation on the influence of very low pressure on local and average condensation heat transfer in a vertical tube. Furthermore, this paper develops an analytical study for film condensation heat transfer coefficient in the presence of non-condensable gas inside a vertical tube. The condensate film thickness is calculated for each location in a tube using mass and heat transfer analogy. The effects of interfacial shear stress and waves on condensate film surface are included in the model. The comparative studies show that the present model well predicts the experimental data of Khun et al. [1]for local condensation of steam air mixture at high pressure. Different correlations defined for condensation heat transfer are evaluated. It is found that the correlations of Cavallini and Zecchin [2] and Shah [3] are the closest to the calculated steam condensation local heat transfer coefficient. The model gives a satisfactory accuracy with the experimental results for condensation heat transfer at very low pressure. The mean deviation between the predictions of the theoretical model with the measurements for pure saturated vapor is 12%. Experimental data show that the increase of air fraction to 4% deteriorates condensation heat transfer at low pressure up to 50%.
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Dates et versions

hal-02153399 , version 1 (12-06-2019)

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J.D. Berrichon, H. Louahlia-Gualous, Ph. Bandelier, N. Bariteau. Experimental and theoretical investigations on condensation heat transfer at very low pressure to improve power plant efficiency. Energy Conversion and Management, 2014, 87, pp.539-551. ⟨10.1016/j.enconman.2014.07.026⟩. ⟨hal-02153399⟩
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